Sans Superellipse Fobim 6 is a very bold, normal width, low contrast, italic, normal x-height font visually similar to 'Neuron' and 'Neuron Angled' by Corradine Fonts and 'FF Good' and 'FF Good Headline' by FontFont (names referenced only for comparison).
Keywords: headlines, posters, sports branding, packaging, logo drafts, sporty, punchy, friendly, confident, modern, impact, motion, approachability, display clarity, modern branding, rounded, soft corners, compact, blocky, upright stress.
A heavy, slanted sans with compact proportions and rounded-rectangle geometry throughout. Strokes are thick and largely monolinear, with smooth joins and softened corners that keep the forms from feeling sharp despite the weight. Curves skew toward superelliptical shapes (notably in C/G/O/Q and the bowls), while straight strokes remain sturdy and slightly tapered by the italic angle. Counters are relatively tight, apertures are modest, and overall spacing reads dense and impactful, especially in all-caps settings.
Best suited for short to medium-length display copy where mass and momentum are desirable—headlines, posters, promotional graphics, packaging callouts, and bold brand moments. It can also work for simple logotypes and wordmarks, particularly where a modern, sporty voice is needed.
The tone is bold and energetic with a friendly edge. The rounded construction and steady rhythm make it feel approachable, while the strong forward slant adds urgency and motion—well suited to attention-grabbing, high-impact communication.
The design appears aimed at delivering maximum impact through heavy weight and forward slant while maintaining warmth via rounded, superelliptical shaping. It prioritizes bold presence and quick readability over delicate detailing, making it a practical display workhorse for energetic branding.
Uppercase forms look especially assertive and uniform, while the lowercase shows a more compact, utilitarian build with simple, sturdy terminals. Numerals are wide and weighty with clear silhouettes, favoring legibility over refinement at display sizes.